Video still camera

ABSTRACT

A digital still camera has a cylindrical image pick up portion with a lens, a strobe unit, and a display. The image pick up unit is cylindrical and is rotatably held at each end, so that the lens and strobe unit move in concert. The image pick up unit can be rotated to face the rear of the camera, where the display is located, so that the user can do self-images.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No.12/074,844, filed Mar. 5, 2008 which is a continuation of U.S.application Ser. No. 10/207,472, filed on Jul. 29, 2002, which is adivisional of U.S. patent application Ser. No. 08/906,103, filed Aug. 5,1997, now U.S. Pat. No. 6,445,417, which claims the benefit of JapanesePatent Application No. P08-217616, filed Aug. 19, 1996, the disclosuresof which are incorporated herein by reference.

BACKGROUND OF THE INVENTION

The present invention relates to a video still camera which isconstructed so that a photographed pictorial image is recorded in abuilt-in recording medium, etc.

Conventionally, there is a digital camera which is constructed so that apictorial image photographed through a lens unit is recorded in abuilt-in memory or a loading memory card used as a recording medium.Moreover, there is such a digital camera which is provided with a liquidcrystal image display unit for displaying the photographed pictorialimage.

In the digital still camera including the aforesaid image display unit,a pictorial image of an object captured by the lens unit is displayed onthe image display unit. Hence, photographing is carried out whilelooking at the pictorial image.

Moreover, the digital still camera is provided with a strobe which isconvenient for photographing in poor light or in back light. The strobeis fixed onto a camera body together with the lens unit.

As described above, the digital camera which is constructed so that thephotographed image is digitally recorded in the built-in memory, etc.,is relatively large in size, and also, a housing for fitting the lensunit and the strobe unit is integrated with a camera body. For thisreason, in the case where photographing is carried out in a low angleposition or a high angle position, an angle of user's hand holding thecamera body must be changed; therefore, it has been inconvenient for theuser.

In particular, in the digital camera including the liquid crystal imagedisplay unit, the image display unit comprises a liquid crystal display,and is fitted to a back side of the camera body. The liquid crystaldisplay has a vertical screen, so that during photographing, the usermust look at the vertical screen in a state of being apart from hiseyes. Thus, in the case where the photographing is carried out in a lowangle position or a high angle position, an angle of user's hand holdingthe camera body must be changed largely, or the user must change hishands holding the camera body in position; therefore, there has arisen adisadvantage that a feel is lost, or operability such as a shutteroperation or the like is lost.

SUMMARY OF THE INVENTION

In view of such aspects, it is an object of the present invention toprovide a video still camera which is capable of carrying outphotographing without changing an angle of user's hand holding thecamera body or changing user's hand position, and which is the mostsuitable for strobe flash photographing.

To achieve the above object, the present invention provides a videostill camera having a construction in which a photographing unitincluding a lens unit and a strobe unit is attached to a camera body sothat it is rotatable in an up-and-down direction.

With the above construction, in the case where photographing is carriedout in a low angle position and in a high angle position, thephotographing unit is rotatable in the up-and-down direction withrespect to the camera body. Whereby strobe flash photographing can bereadily carried out in the up-and-down direction and in front and reardirections without changing an angle of user's hand holding the camerabody or changing user's hand position.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing a front side of a video stillcamera according to an example of the present invention.

FIG. 2 is a perspective view showing a rear side of the video stillcamera shown in FIG. 1 attached with a dry battery adapter.

FIG. 3 is a plan view of the video still camera shown in FIG. 1.

FIG. 4 is a right side view of the video still camera shown in FIG. 1.

FIG. 5 is a perspective view showing a lower surface side of the videostill camera shown in FIG. 1 in a state that the dry battery adapter isremoved therefrom.

FIG. 6 is an exploded perspective view of a camera body of the videostill camera shown in FIG. 1.

FIG. 7 is an exploded perspective view of a photographing unit of thevideo still camera shown in FIG. 1.

FIG. 8 is an expanded longitudinal sectional view of an image displayunit of the video still camera shown in FIG. 1.

FIG. 9 is an expanded transverse sectional view of the image displayunit of the video still camera shown in FIG. 1.

FIG. 10 is a perspective view showing a state of opening a lid of anexample of the dry battery adapter which is applied to the video stillcamera of the present invention.

DETAILED DESCRIPTION

An embodiment of a video still camera according to the present inventionwill be described below with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a front side of a video stillcamera of the present embodiment; FIG. 2 is a perspective view showing arear side of the video still camera; FIG. 3 is a plan view of the videostill camera; FIG. 4 is a side view of the video still camera; and FIG.5 is a perspective view showing a lower face side of the video stillcamera. In FIG. 1 to FIG. 5, a reference numeral 1 denotes a camerabody, and 2 denotes a photographing unit. The camera body 1 has abuilt-in recording/reproducing unit including a flash memory as arecording medium, and is provided with an image display unit 3 at thesubstantially center portion on the back side thereof. Also, thephotographing unit 2 is provided with a lens unit 4 and a strobe unit 5which are arranged in a transverse direction with a predeterminedinterval. Further, the photographing unit 2 is attached to an upperportion of the camera body 1 so as to be rotatable in an up-and-downdirection.

The video still camera of the present example will be described below indetail with reference to exploded perspective views of the camera body 1and the photographing unit 2 shown in FIG. 6 and FIG. 7, and tolongitudinal and transverse sectional views of the image display unit 3shown in FIG. 8 and FIG. 9.

As shown in FIG. 6, the camera body 1 is constructed in a manner thatits outermost housing 11 is formed by integrating a front panel 12 witha rear panel 13. The front panel 12 and the rear panel 13 are formedinto a box shape having upper portions 12 b and 13 b individuallycorresponding to front and rear half portions of the upper peripheralportion of the outermost housing 11 relative to a front surface portion12 a and a rear surface portion 13 a, bottom surface portions 12 c and13 c, and right and left side surface portions 12 d, 12 e and 13 d, 13e. The upper portions 12 b and 13 b of the front and rear panels 12 and13 are formed with recess surface portions 12 b ₁ and 13 b ₁ on theright side surface portions 12 e and 13 e, respectively. In this manner,the upper portion of the outermost housing 11 is formed with a recessportion 11 a. Also, the rear portion 13 a of the rear panel 13 is formedwith a window 14 for a screen of the image display unit 3 at thesubstantially center portion thereof. The screen of the display unit 3will be described later.

The outermost housing 11 has a built-in recording/reproducing unit 6including a flash memory used as a recording medium and the built-inimage display unit 3.

The recording/reproducing unit 6 comprises a unit assembly substrate 61,a core substrate 62 equipped with a flash memory used as a recordingmedium and supported on the front side of the unit assembling substrate61 via a multi-connector 63, and a video substrate 64 equipped with avideo circuit and supported on the rear side of the substrate 61.Further, the recording/reproducing unit 6 is provided with an infraredray data transmitter-receiver 65. The transmitter-receiver 65 isattached to the unit assembling substrate 61 via a terminal substrate66. Also, the video substrate 64 is equipped with an operating dial 67(hereinafter, referred to as a “menu jog dial”) of a rotary encoder witha switch for operating a camera menu connected to the video circuit. Apower terminal plate 70 is equipped with a video output terminal 68 anda DC power input terminal 69 which are attached via the terminal plate70 to the video substrate 64.

When the recording/reproducing unit 6 thus constructed is attached tothe inside of the front panel 12 a part of the menu jog dial 67 projectsthrough an elongated aperture or a slit 15 formed through the right sidesurface portion 13 e of the rear panel 13. Also, the video outputterminal 68 and the power input terminal 69 are situated so as to facethe insides of through-holes 16 and 17 formed below the slit 15. Theinfrared data transmitter-receiver 65 is located so as to correspond toa transparent window 18 formed on the left-hand side of the frontportion 12 a of the front panel 12 from its inside.

The image display part 3 comprises a liquid crystal display 31, a planartube 32 used as a back light and a prism sheet 33 for increasing aquantity of light. As shown in FIG. 8 and FIG. 9, the liquid crystaldisplay 31 is housed in a frame 34 and then is fitted into a holder 35,and the prism sheet 33 is arranged at its inside. When a fitting plate36 attached with the planar tube 32 is fitted into the holder 35, theplanar tube 32 is located at the inside of the prism sheet 33. Aflexible distributing board 37 used as a lead wire for the planar tube32 is led out to the outer side of the fitting plate 36, and isconnected to the aforesaid power terminal plate 70.

In the image display part 3, the liquid crystal display 31 and theplanar tube 32 are integrally assembled with the prism sheet 33interposed therebetween. At that time, the liquid crystal display 31 andthe planar tube 32 are in a sealed state, so that dust can be preventedfrom coming in the space therebetween. Thus, the liquid crystal display31 is securely lightened by means of the planar tube 32, so that apictorial image can be clearly displayed thereon.

The image display part 3 constructed as described above is attached tothe inside of the rear surface panel 13 of the outermost housing 11,such that as shown in FIG. 2, a screen 3 a which is the surface side ofthe liquid crystal display 31 is exposed through the window 14 of therear portion 13 a.

Within the rear surface panel 13, an operating button group 7 isattached to a button fitting plate 8 at the right-hand side of the imagedisplay part 3. The operating button group 7 is connected to a videosubstrate 64 by means of a flexible distributing board 9 so as tocontrol the video circuit.

The operating button group 7 comprises a flash button 71 to be operatedupon carrying out strobe photographing, a return button 72 to beoperated, upon interrupting a menu operation, a self-timer button 73 tobe operated upon carrying out a self-timer photographing, a rotationbutton 74 operated when rotating a display screen, that is, whenrotating the screen for each angle of 90°, a screen display button 75 tobe operated upon switching the display screen in the order of easydisplay, detail display, no display, and a review button 76 to beoperated upon carrying out photographing while reproducing aphotographed pictorial image. The respective buttons 71 to 76 have apressing portions projecting from button window holes 19 which aresituated on the side of the window 14 and formed through the rearsurface portion 13 a of the rear surface panel 13.

Next, as shown in FIG. 7, the photographing unit 2 has an outermosthousing 21 which is formed by integrating a front side cabinet 22 with arear side cabinet 23. The width of the outermost housing 21 is made tobe substantially the same width as the aforesaid recess portion 11 a ofthe outermost housing 11 of the camera body 1. The front side cabinet 22has a peripheral surface portion 22 b which is formed over the entireperipheral edge of a front surface portion 22 a with a relatively lowheight. Also, the rear, side cabinet 23 has a main portion 23 a which isformed into a U shape of substantially falling sideways over portionsfrom the rear surface side to the up-and-down face sides thereof. Themain portion 23 a has side surface portions 23 b and 23 c which aresubjected to a rise-up shaping at its opposite side edges.

A holder member 24 is fixedly fitted in to the outermost housing 21formed by integrating the front side cabinet 22 and the rear sidecabinet 23, and then, the lens unit 4 and the strobe unit 5 are attachedto the holder 24, thus the photographing unit 2 being constructed.

The holder member 24 comprises a retaining plate portion 25 fitted intothe front cabinet 22 of the outermost housing 21 and leg plate portions26 and 27 which project backward from opposite sides of the retainingplate portion 25 and are respectively fitted into both side portions ofthe rear side cabinet 23. The retaining plate portion 25 has a lenswindow 28 correspondent to the lens unit 4, and a strobe window 29correspondent to the strobe unit 5 which are formed with a predeterminedinterval in the transverse direction. The strobe window 29 is dividedinto a flash window 29 a and a light receiving window 29 b. Also, on theoutside surfaces of the leg plate portions 26 and 27 there arerespectively formed bearing bosses 26 a and 27 a which project outwardwith their axial lines being aligned with each other.

The holder member 24 is attached with the lens unit 4 and the strobeunit 5 which are arranged between the leg plate portions 26 and 27 ofthe retaining plate portion 25 with a predetermined interval in thetransverse direction. The lens unit 4 is constructed in a manner that asolid state imaging device (hereinafter, referred simply to as a CCD)and a lens mechanism 41 capable of achieving pan-focus and macrophotographing are coupled with each other and attached to a lens holder42. A CCD circuit board 43 is fixed on the rear side of the lens holder42, and a flexible distributing board 44 is led out therefrom which isconnected to the aforesaid core substrate 62 side of therecording/reproducing unit 6. Also, a flexible distributing board 45 t obe connected to the core substrate 62 is led out from the lens mechanism41 side.

The lens unit 4 is attached to the inside surface of the retaining plateportion 25 of the holder 24 so as to correspond to the lens window 28.The front surface side of the lens window 28 is attached with a lensprotective transparent plate 46 via a frame 47. The lens protectivetransparent plate 46 faces a lens window 22 a ₁ of the front sidecabinet 22 together with the frame 47. Also, the main portion 23 a ofthe rear side cabinet 23 of the outermost housing 21 is provided with amacro photographing switching lever 48 for the lens unit 4 at its upperface on the left-hand side. Further, the main portion 23 a is formedwith a finger settlement portion 49 on the peripheral face on theright-hand side thereof.

The strobe unit 5 is constructed in a manner that a reflection plate 52holding a strobe flash lamp 51 such as a xenon tube or the like isfixedly fitted to the inside of a strobe holder 53, the strobe holder 53is attached to a strobe substrate 54 and then the strobe flash lamp 51is connected to a power supply circuit. The strobe substrate 54 ismounted with a light receiving element 55 for adjusting a strobe flashmount by detecting an ambient height. The light receiving element 55 isinserted into and held by a holding cylinder 56 attached to the sideportion of the strobe holder 53. A flexible distributing board 57 and alead wire 58 are led out from the strobe substrate 54, and arerespectively connected to the video substrate 64 of therecord/reproducing unit 6 and the power terminal plate 70.

The strobe unit 5 is attached to the inner surface side of the retainingplate portion 25 of the holder 24 such a manner, that the strobe flashlamp 51 corresponds to the flash window 29 a of the strobe window 29,and the light receiving element 55 corresponds to the light receivingwindow 29 b. Protective transparent plates 59 a and 59 b are fitted into the flash window 29 a and the light receiving window 29 b,respectively. The protective transparent plates 59 a and 59 b facestrobe windows 22 _(a) ₂ and 22 _(a) ₃, respectively.

The photographing unit 2 is attached to the outermost housing 11 of thecamera body 1 in such a manner that the bearing bosses 26 a and 27 a ofboth the leg plate portions 26 and 27 of the holder 24 are respectivelyinserted into insertion holes 11 a ₁ and 11 a ₂ formed so as to ride onthe front and rear surface panels 12 and 13 on the inside of the recessportion 11 a. Thus, the photographing unit 2 is rotatably supported bybearing members provided on the upper opposite sides of the outermosthousing 11. The flexible distributing boards 44 and 45 on the lens unit4 side are inserted from the left-hand side insertion hole 11 a ₁ intothe outermost housing 11 and then connected to the core substrate 62. Onthe other hand, the flexible distributing boards 57 and 58 on the strobeunit 5 side are inserted from the right-hand side insertion hole 11 a ₂into the outermost housing 11 and then connected to the video substrate64 and power terminal plate 70 side, respectively.

As shown in FIG. 7, a support member 82 rotatably arranged around ashaft member 81, which is coupled to the bearing boss 26 a, is fixed tothe inside of the outermost hosing 11 by a screw or the like. Also, thebearing boss 27 a is coupled to a lock mechanism including a lock lever83 (see FIG. 6) rotatably supported on the right side surface of theoutermost housing 11.

In the upper left side of the outermost housing 11 of the camera body 1,a shutter switch 84 attached to a fitting member 85 is located adjacentto the support member 82. A shutter button 86 for operating the shutterswitch 84 is located on the upper left-side surface of the outermosthousing 11. The left-hand side surface of the outermost housing 11 ofthe camera body 1 is attached with a power/function dial 87 which isconnected to the video substrate 64 of the recording/reproducing unit 6by means of a flexible distributing board 89. If the power/function dial87 rotated, it is possible to select a power on-off operation, areproducing operation, and auto/manual photographing switchingoperation.

The camera body 1 is provided with a battery case 91 at the lowerportion of the outermost housing 11 thereof, as shown in FIG. 1 and FIG.6. To one end portion of the battery case 91 there is attached a batteryterminal plate 92 to which a lead wire 93 is connected. To the outer endportion of the battery case 91 there is attached a battery lid 94 whichwill cover an opening at the lower portion on the left side surface ofthe outermost housing 11. A battery housed in the battery case 91 as apower source is a charging battery for example, a charging type lithiumion battery 95 applicable.

As shown in FIG. 5, on the bottom surface side of the battery case 91there are provided a tripod screw hole 96, a screen brightness adjustingdial 97, a reset button 98 and a hook portion 99 for a dry batteryadapter which will be described later.

A dry battery is applicable as a power source for the video still cameraconstructed as described above. In order to apply the dry battery, a drybattery adapter 101 as shown in FIG. 10 is used.

The dry battery adapter 101 comprises a box-like body 102 housing therein four size-AA dry batteries 100, and a lid 103 used as a batteryconnecting terminal plate. A lead wire 105 with a plug 104 to beconnected to the camera body 1 side is led out from the body 102. On theupper surface of the box-like body 102, a hooked pawl 106 which isengaged with the hook portion 99 of the camera body 1 side is projectedand also, a fastening screw 107, which is screwed into the tripod screwhole 96, is rotatably attached.

The dry battery adapter 101 is fixed onto the lower surface side of thecamera body 1, that is, the lower surface of the battery case 91, in amanner of engaging the hooked pawl 106 with the hook portion 99 andscrewing the fastening screw 107 into the tripod screw hole 96. When theplug 104 of the lead wire 105 is inserted into the DC power inputterminal 69 of the camera body 1 side through the through hole 17, thesize AA dry battery 100 becomes a power source of the camera body 1.

In the video still camera constructed as described above, when the powersupply is turned on by rotating the function dial 87 to set the autophotographing, the image of an object captured by the lens unit 4 of thephotographing unit 2 is displayed on the screen 3 a of the image displayunit 3. Then, in this state, when the shutter 84 is pushed through theshutter button 86, the object is photographed. The photographed stillimage is displayed on the screen 3 a of the image display unit 3 andalso recorded in the recording/reproducing unit 6.

When the function dial 87 is set to the manual photographing, thebrightness, the shutter speed, the picture quality and the like areadjusted by a user on the menu screen before photographing. Also, in thecase where macro photographing is carried out, the macro photographingswitching lever 48 is operated to switch the lens unit 4 to the macrophotographing side. Moreover, in the case where strobe photographing iscarried out, the flash button 71 is pushed, and thereafter, when theshutter 84 is pushed as described above, the strobe photographing iscarried out.

With use of various menus, photographings corresponding to these menuscan be carried out and recorded.

When the function dial 87 is set to a reproduction after photographingand recording, the photographed still image is reproduced, and then, isdisplayed on the screen 3 a of the image display unit 3.

The photographed and recorded still image is transmitted to a videostill camera, a personal computer, etc. including an infrared datatransmitter/receiver through the infrared data transmitter/receiver 65,and then, is subjected to dubbing. Also, the aforesaid still image istransmitted to a digital printer, and then, can be printed.

As described above, according to the video still camera of the presentexample in which the photographed still image is displayed on the screen3 a of the image display unit 3, and is recorded and reproduced in therecording/reproducing unit 6, the photographing unit 2 is rotatable inthe up-and-down direction relative to the camera body 1. Therefore, whenthe lock lever 83 is operated to release the lock of the photographingunit 2 relative to the camera body 1, the photographing unit 2 isrotated and changed to a desired angle, and is located again, thusphotographing being carried out at the position where its photographingangle is changed. Moreover, if the photographing unit 2 is rotatable by180° with respect to the camera body 1, photographing can be carried outin a state that the user faces the screen 3 a of the image display unit3. Namely, the user can look at the image while photographing the userhimself.

The aforesaid photographing at a changed angle position can be carriedout without changing an angle of the camera body 1, so that there is noneed of changing the angle of user's hand holding the camera body 1 andalso no need of changing the angle for looking the screen 3 a of theimage display unit 3.

Even in photographing at the changed angle position, the strobe unit 5is rotated integrally with the lens unit 4, and the photographing angleis freely changed, so that the strobe photographing can be carried outin the same manner as photographing at a usual position.

The photographing unit 2 rotatable with respect to the camera body 1 isrotatably supported on the both sides of the camera body 1. Thus, thephotographing unit 2 is always stably rotated, and is securely locked ata desired angle position. Accordingly, photographing at various anglepositions, that is, at a low angle position or a high angle position canbe carried out without blur, and also, photographing can be securelycarried out in the same manner as a camera having a construction inwhich the photographing unit is integrated with camera body.

The flexible distributing boards 44 and 45 on the lens unit 4, and theflexible distributing board 57 and lead wire 58 on the strobe unit 5,which electrically connect the lens unit 4 and the strobe unit 5 of thephotographing unit 2 rotatable together relative to the camera body 1 tothe recording/reproducing unit 6 of the camera body 1 camera body 1 areintroduced through different side portions of the outermost housing 11of the camera body 1, that is, through the left side portion and theright side portion thereof. Therefore, the distributing boards of boththe lens unit and the strobe unit have no risk of carelessly contactingwith each other. Therefore, mechanical noise caused in flashing of thestrobe unit 5 is not badly influenced on an image signal of the lensunit 4, and hence a more clear still image can be recorded andreproduced.

The liquid crystal display 31 of the image display unit 3 and the planartube 32 used as the back light are integrated with each other by asealing structure, so that dust or the like can be prevented from comingtherein. Thus, a more clear still image can be always displayed on thescreen 3 a of the image display unit 3.

One embodiment of the present invention has been described. The presentinvention is not limited to the above embodiment, and variousmodifications can be made within a scope of the present invention.

For example, the camera body 1 and the photographing unit 2 are notrestricted to a shape shown in the figures. There may be a structure inwhich the photographing unit 2 having the lens unit 4 and the strobeunit 5 arranged in the transverse direction with a predeterminedinterval is supported on opposite sides of the camera body 1.

The recording/reproducing unit 6 is not restricted to the constructionshown in the figures. A memory card may be used as the recording medium.Also, the image display unit 3 may be constructed such that it can bedetachable relative to the camera body 1.

The present invention is applicable to various digital still cameras.

As described above, according to the video still camera of the presentinvention, the lens unit and the strobe unit are arranged in theidentical box body, and are attached to the camera body such that theyare rotatable in the up-and-down direction. Therefore, there is no needof changing an angle of user's hand holding the camera body and also noneed of changing the hand position, and strobe flash photographing canbe carried out at a free angle in the up-and-down direction orfront-and-rear direction. Moreover, a low-angle and a high-anglephotographings can be securely carried out under a dark light or a backlight.

Having described a preferred embodiment of the present invention withreference to the accompanying drawings, it is to be understood that thepresent invention is not limited to the above-mentioned embodiment andthat various changes and modifications can be effected there in by oneskilled in the art without departing from the spirit or scope of thepresent invention as defined in the appended claims.

1. An image processing and transmitting apparatus comprising: a displayunit for displaying an image; and a data transmission component beingconfigured to transmit and receive an image to and from anotherapparatus; wherein said apparatus is configured to selectively controlsaid display unit to set an easy display, detail display and no display.2. The apparatus of claim 1 further comprising a screen display buttonconfigured to permit a user to selectively set the easy display, detaildisplay and no display.
 3. The apparatus of claim 1 wherein the datatransmission component is arranged on a side of the apparatus that isdifferent from a side of the apparatus where the display unit isarranged.
 4. The apparatus of claim 3 wherein the data transmissioncomponent comprises an infrared ray transmitter and receiver.
 5. Theapparatus of claim 4 wherein the data transmission component transmitsthrough a transparent window.
 6. The apparatus of claim 1 wherein theapparatus is configured to display an image on the image display unitand permit a user to select the displayed image for transmission toanother apparatus when it is displayed.
 7. The apparatus of claim 1further comprising an image pickup unit, the image pickup unit beingarranged on a side of the apparatus which is different from a side ofthe apparatus where the display unit is arranged.
 8. A camera apparatusfor image processing and transmitting comprising: a display unit fordisplaying an image; an image pickup unit, the image pickup unit beingarranged on a side of the apparatus which is different from a side ofthe apparatus where the display unit is arranged; and a datatransmission component being configured to transmit and receive an imageto and from another apparatus; wherein said apparatus is configured toselectively control said display unit to set an easy display, detaildisplay and no display in response to a user activation of a screendisplay button of the apparatus.
 9. The apparatus of claim 8 wherein thedata transmission component is arranged on a side of the apparatus thatis different from a side of the apparatus where the display unit isarranged.
 10. The apparatus of claim 9 wherein the apparatus isconfigured to display an image on the image display unit and permit auser to select the displayed image for transmission to another apparatuswhen it is displayed.
 11. The apparatus of claim 10 further comprising atransparent window through which the transmission component is arrangedto transmit and receive image data.